Orchid conservation in China from 2000 to 2020: Achievements and perspectives

Abstract Background and Aims In orchid conservation, quantifying the specificity of mycorrhizal associations, and establishing which orchid species use the same fungal taxa, is important for sourcing suitable fungi for symbiotic propagation and selecting sites for conservation translocation. For Caladenia subgenus Calonema (Orchidaceae), which contains 58 threatened species, we ask the following questions. (1) How many taxa of Serendipita mycorrhizal fungi do threatened species of Caladenia associate with? (2) Do threatened Caladenia share orchid mycorrhizal fungi with common Caladenia? (3) How geographically widespread are mycorrhizal fungi associated with Caladenia? Methods Fungi were isolated from 127 Caladenia species followed by DNA sequencing of the internal transcibed spacer (ITS) sequence locus. We used a 4.1–6 % sequence divergence cut-off range to delimit Serendipita operational taxonomic units (OTUs). We conducted trials testing the ability of fungal isolates to support germination and plant growth. A total of 597 Serendipita isolates from Caladenia, collected from across the Australian continent, were used to estimate the geographic range of OTUs. Key Results Across the genus, Caladenia associated with ten OTUs of Serendipita (Serendipitaceae) mycorrhizal fungi. Specificity was high, with 19 of the 23 threatened Caladenia species sampled in detail associating solely with OTU A, which supported plants from germination to adulthood. The majority of populations of Caladenia associated with one OTU per site. Fungal sharing was extensive, with 62 of the 79 Caladenia sampled in subgenus Calonema associating with OTU A. Most Serendipita OTUs were geographically widespread. Conclusions Mycorrhizal fungi can be isolated from related common species to propagate threatened Caladenia. Because of high specificity of most Caladenia species, only small numbers of OTUs typically need to be considered for conservation translocation. When selecting translocation sites, the geographic range of the fungi is not a limiting factor, and using related Caladenia species to infer the presence of suitable fungal OTUs may be feasible.

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Orchid Conservation and Mycorrhizal Associations

Microorganisms in Plant Conservation and Biodiversity ◽

10.1007/0-306-48099-9_7 ◽

2006 ◽

pp. 195-226 ◽

Cited By ~ 5

Author(s):

Andrew L. Batty ◽

Kingsley W. Dixon ◽

Mark C. Brundrett ◽

K. Sivasithamparam

Keyword(s):

Mycorrhizal Associations ◽

Orchid Conservation

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Orchid conservation and research: An analysis of gaps and priorities for globally Red Listed species

AMBIO ◽

10.1007/s13280-019-01306-7 ◽

2020 ◽

Vol 49 (10) ◽

pp. 1601-1611 ◽

Cited By ~ 4

Author(s):

Jenna Wraith ◽

Patrick Norman ◽

Catherine Pickering

Keyword(s):

Orchid Conservation

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EX SITU ORCHID CONSERVATION - A CASE STUDY FROM THE SINGAPORE BOTANIC GARDENS

Acta Horticulturae ◽

10.17660/actahortic.2010.878.1 ◽

2010 ◽

pp. 21-28

Author(s):

T.W. Yam ◽

F. Tay ◽

P. Ang ◽

J. Chua

Keyword(s):

Ex Situ ◽

Botanic Gardens ◽

Orchid Conservation

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On the Value of Taxonomy, Phylogeny, and Systematics to Orchid Conservation: Implications for China’s Yachang Orchid Reserve

The Botanical Review ◽

10.1007/s12229-010-9052-x ◽

2010 ◽

Vol 76 (2) ◽

pp. 165-173

Author(s):

Kenneth M. Cameron

Keyword(s):

Conservation Implications ◽

Orchid Conservation

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Botanic gardens, education, and orchid conservation strategies: the need for a coordinated approach

Lankesteriana ◽

10.15517/lank.v11i3.18285 ◽

2011 ◽

Vol 11 (3) ◽

Author(s):

Thomas Mirenda

Keyword(s):

Plant Conservation ◽

Global Strategy ◽

Ex Situ ◽

Conservation Strategies ◽

Botanic Gardens ◽

Botanic Garden ◽

Orchid Conservation ◽

Public Garden ◽

Para Determinar

Se ha escuchado a nivel mundial el llamado para la conservación de orquídeas, por parte de científicos, profesionales de horticultura, propagadores comerciales y los apasionados entusiastas privados, todos con diferentes opiniones sobre la manera para atacar este problema global. Las noticias han sido desalentadoras en relación al calentamiento global, destrucción de hábitat, desplazamiento de poblaciones nativas por parte de agresivas, exóticas e insostenibles depredaciones /cosechas de plantas y los esfuerzos impotentes para hacer cumplir las protecciones legales. Se han dedicado muchas ideas y esfuerzos para determinar estrategias específicas para la conservación de orquídeas, incluyendo la protección al hábitat, la compra y preservación de los “puntos calientes,” así como las tendencias hacia la creación de reservas hortícolas, tanto nativas (reservas de los Jardines de Lankester, Fundación EcoMinga, Ecuagenera) y ex situ (jardines de orquídeas en Hawái, colecciones bajo vidrio, etc.). Tácticas como un banco de semillas, tecnología ADN, esfuerzos de propagación ex situ, así como eventuales reintroducciones, inherentemente dependen de recursos y propiedades de jardines botánicos y cultivadores comerciales responsables. Es este tipo de trabajo de horticultura el que ha salvado a otros géneros que no corresponden a las orquídeas, tales como Franklinia, Torreya, Wollemia, y especies de orquídeas como Paphiopedilum vietnamense, Epidendrum ilense, y Angraecum longicalcar de la extinción. Los jardines botánicos unidos bajo ciertas organizaciones como la Asociación Americana de Jardines Públicos (American Public Garden Association - APGA) y Jardines Botánicos para la Conservación Internacional (Botanic Garden Conservation International - BGCI), necesitan de una mayor cooperación y coordinación para el éxito de sus esfuerzos para la conservación de plantas. Además, es un aspecto crítico que los jardines botánicos se conecten con la comunidad científica (y viceversa), especialmente aquellos que mejor pueden asesorar sobreaquellas especies más amenazadas. Si las colecciones van a ser utilizadas en forma óptima, las sociedades científicas y de horticultura deben estar más conscientes de sus respectivos activos y prioridades. En el Primer Congreso Internacional para la Conservación de Orquídeas (International Orchid Conservation Congress - IOCC), se adoptaron cuatro resoluciones de la Estrategia Global para la Conservación de Plantas (Global Strategy for Plant Conservation – GSPC en inglés): 1): el 90% de todas las orquídeas amenazadas deberían ser asegurada en colecciones ex situ; 2) el 50% debería constar en programas para su recuperación activa; 3) Se debe considerar que las orquídeas están amenazadas cuando su cosecha no es sostenible; y 4) Para el año 2010, cada niño y niña debe estar consciente de lo que es la diversidad de plantas (incluyendo a las orquídeas). ¿C.mo podemos evaluar si se está logrando el progreso hacia estos admirables objetivos sin que exista una entidad que unifique y que pueda recopilar el progreso, la información y el grado de éxitos alcanzado? Al ver el esfuerzo desplegado en tantos lugares separados, es indudable que se necesita urgentemente este tipo de entidad. Constituye la meta de muchos jardines botánicos y una meta específica del Instituto Smithsoniano, el promover la diseminación de conocimientos y comprensión. Con este fin en mente, el anterior objetivo #4 constituye una particular prioridad. A pesar de que alcanzar la meta del 100% de conciencia compartida en relación a la diversidad de plantas para el año 2010, hemos iniciado un proyecto que nos permita comprender y finalmente corregir el llamado síndrome de “Ceguera relativa a las Plantas,” bajo el cual la persona promedio no considera que las plantas son seres vivientes (en el mismo sentido de los animales). Mediante el uso de encuestas y entrevistas personales, se está analizando este síndrome generalizado y penetrante para determinar sus caracter.sticas demográficas, hombre/ mujer, urbano/rural, jóvenes/ viejos, etc. Es imperativo para los educadores que identifiquen la edad en la cual dichas actitudes empiezan a introducirse en la psiquis de los jóvenes. Es necesario aplicar ciertas técnicas que permitan elevar el grado de conciencia de los individuos de todas las edades en relación a la importancia de la diversidad de las plantas y su conservación. Esto puede tomar la forma de presentaciones, exposición a especies representativas, paseos de campo y otras oportunidades educativas, que permitan cultivar un enfoque mental que comprenda y a la final proteja el mundo natural.

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Orchid conservation: the next ten years

Lankesteriana ◽

10.15517/lank.v0i0.11545 ◽

2013 ◽

Cited By ~ 4

Author(s):

Philip Seaton ◽

Jonathan P. Kendon ◽

Hugh W. Pritchard ◽

Dwi Murti Puspitaningtyas ◽

Tim R. Marks

Keyword(s):

Endangered Species ◽

Action Plan ◽

Sustainable Use ◽

Rapid Decline ◽

Conservation Action ◽

Natural Habitats ◽

Orchid Species ◽

Orchid Conservation ◽

Orchid Seed ◽

Made In

In 1996 the IUCN/SSC Orchid Specialist Group published a Status Survey and Conservation Action Plan that included a number of recommendations designed to address the problem of a projected imminent and rapid decline of species. Orchids remain subject to a multiplicity of threats in their natural habitats and, in addition to the usual suspects of habitat loss and land conversion, climate change has exerted a measurable effect on some orchid populations. Collection of orchids for traditional medicine is having a significant effect both within China and surrounding countries. Some progress has been made in achieving the targets set for Red Listing of endangered species in some countries, but other countries are lagging behind. In addition to successful initiatives in preserving natural habitats, a number of projects around the world have demonstrated that it is possible both to bring endangered species into cultivation and successfully reintroduce them into the wild. Orchid Seed Stores for Sustainable Use, with its goal of storing seeds representing a minimum of 1000 orchid species in institutes in at least 30 countries over the next five years, provides an example of what can be achieved by a small, dedicated group determined to share their technical expertise and develop a deeper understanding of the underlying science. There is, however, also an urgent need to promote awareness in the wider community about the importance of all sorts of biodiversity (not only orchids) through educational programs and involve people from as wide a range of backgrounds as possible.

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INVESTIGATING THE EFFECT OF SUBSTRATE, MYCORRHIZAL APPLICATION AND BULB SEPARATION ON THE GROWTH OF THE WILD ORCHID ANACAMPTIS PYRAMIDALIS

AGROFOR ◽

10.7251/agreng1803005k ◽

2019 ◽

Vol 3 (3) ◽

Author(s):

Elie KHOURY ◽

Tony Kevork SAJYAN ◽

Peter ZHELEV ◽

Youssef Najib SASSINE

Keyword(s):

Ex Situ ◽

First Year ◽

Orchid Conservation ◽

Significant Difference ◽

Anacamptis Pyramidalis ◽

Rate Of Emergence ◽

And Control ◽

Soil Substrates ◽

Plant Length

Pyramidal orchid (Anacamptis pyramidalis) is a wild terrestrial orchid widelyfound in Lebanon and the Mediterranean zone. Random collection and trade of theorchid for medicinal and edible use (salep) subjected it to a risk of extinction.Consequently, the current work aimed to propagate this orchid in vivo. Orchidbulbs were transplanted from the wild into four different soil substrates (Pinebark,Pinebark-Peat (1/1), Peat-Sand (1/1) and control: soil from the collection site)under controlled conditions of temperature and humidity. The effect of mycorrhizalapplication (MY: Yes) was tested in the different substrates except in control andorchid bulbs (son bulb and mother bulb) were planted combined (SB+MB) or afterseparation of the mother bulb (SB). Same treatments were repeated over twoconsecutive years. Results showed an earlier emergence of son bulbs (SB) grownin control substrate. Moreover, there was a significant difference in plant growthwith superiority for (SB) compared to (SB+MB) regarding plant length andelongation of first leaf except bulb dimensions (length and width) that were higherin (SB+MB). Mycorrhizal application enhanced the overall growth of plants and itseffect was the most obvious in the substrate Peat-Sand (1/1). In general, the bestgrowth of the orchid was observed at the level (SB)/(MY:Yes)/Peat-Sand (1/1).Results of the second experimental year confirmed those of the first year with animprovement of the rate of emergence by 13%. The in vivo propagation methodwas beneficial on improving the growth of A. pyramidalis ex situ and it could beadopted as an initiative for wild orchid conservation.

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